Experimental Study on Mechanical Properties of Root-Soil Composite Reinforced by MICP

Mechanical properties of undisturbed root-soil composites were investigated through direct shear tests under different cementation concentrations by microbially induced carbonate precipitation (MICP). The results show that MICP has a significant strengthening effect on the undisturbed root-soil composite, and the maximum shear strength increases by about 160% after grouting. The shear strength of root-soil composites increases with the increase in calcium chloride concentration, and the shear strength increases the most when the concentration is 0.75M. Calcium carbonate formed by MICP treatment has cementitious properties, which increases the cohesion and internal friction angle of the root-soil composite by about 400% and 120%, respectively. The results show that it is feasible to solidify slope and control soil erosion together with microbial and vegetation roots. The research results can serve as a scientific basis and reference for the application of MICP technology in vegetation slope protection engineering.

Automated summary

The mechanical properties of undisturbed root-soil composites were investigated using direct shear tests with different cementation concentrations achieved through microbially induced carbonate precipitation (MICP). The results revealed that MICP significantly strengthened the undisturbed root-soil composite, with a maximum increase in shear strength of about 160% after grouting. The shear strength of the composites increased with an increase in calcium chloride concentration, with the highest increase observed at a concentration of 0.75M. Calcium carbonate formed by MICP treatment exhibited cementitious properties, resulting in a 400% increase in cohesion and a 120% increase in internal friction angle of the root-soil composite.